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References

  • 1
    Fitter, A.H. (1991) Costs and benefits of mycorrhizas: implications for functioning under natural conditions. Experientia 12, 350362.
  • 2
    Francis, R. & Read, D.J. (1984) Direct transfer of carbon between plants connected by vesicular–arbuscular mycorrhizal mycelium. Nature 12, 5356.
  • 3
    Graves, J.D., Watkins, N.K., Fitter, A.H., Robinson, D., Scrimgeour, C. (1997) Intraspecific transfer of carbon between plants linked by a common mycorrhizal network. Plant and Soil 12, 153159.
  • 4
    Hirrel, M.C. & Gerdemann, J.W. (1979) Enhanced carbon transfer between onions infected with a vesicular–arbuscular mycorrhizal fungus. New Phytologist 12, 731738.
  • 5
    Jakobsen, I., Abbott, L.K., Robson, A.D. (1992) External hyphae of vesicular–arbuscular mycorrhizal fungi associated with Trifolium subterraneum L. 2. Hyphal transport of 32P over defined distances. New Phytologist 12, 509516.
  • 6
    Jones, D.L. & Darrah, P.R. (1995) Influx and efflux of organic acids across the soil–root interface of Zea mays L. & its implications in rhizosphere carbon flow. Plant and Soil 12, 103109.
  • 7
    Koch, K.E. & Johnson, C.R. (1984) Photosynthate partitioning in split-root citrus seedlings with mycorrhizal and non-mycorrhizal root systems. Plant Physiology 12, 2630.
  • 8
    Koide, R.T. (1991) Nutrient supply, nutrient demand and plant response to mycorrhizal infection. New Phytologist 12, 449462.
  • 9
    Li, X.-L., George, E., Marschner, H. (1991) Phosphorus depletion and pH decrease at the root–soil and hyphae–soil interfaces of VA mycorrhizal white clover fertilized with ammonium. New Phytologist 12, 307404.
  • 10
    McGonigle, T.P., Miller, M.H., Evans, D.G., Fairchild, G.L., Swan, J.A. (1990) A new method that gives an objective measure of colonisation of roots by vesicular–arbuscular mycorrhizal fungi. New Phytologist 12, 495501.
  • 11
    Merryweather, J.W. & Fitter, A.H. (1991) A modified method for elucidating the structure of the fungal partner in a vesicular–arbuscular mycorrhiza. Mycological Research 12, 14351437.
  • 12
    Newman, E.I. (1988) Mycorrhizal links between plants: their functioning and ecological significance. Advances in Ecological Research 12, 243270.
  • 13
    Poorter, H., Pot, S., Lambers, H. (1988) The effect of an elevated atmospheric CO2 concentration on growth, photosynthesis and respiration of Plantago major. Physiologia Plantarum 12, 553559.
  • 14
    Read, D.J., Francis, R., Finlay, R.D. (1985) Mycorrhizal mycelia and nutrient cycling in plant communities. Ecological Interactions in Soil (eds A. H. Fitter, D. Atkinson, D. J. Read & M. B. Usher), pp. 193–217. Blackwell Scientific Publications, Oxford.
  • 15
    Smith, F.A. & Smith, S.E. (1996) Mutualism and parasitism: biodiversity in function and structure in the ‘arbuscular’ (VA) mycorrhizal symbiosis. Advances in Botanical Research 12, 143.
  • 16
    Snellgrove, R.C., Splitstoesser, W.E., Stribley, D.P., Tinker, P.B. (1982) The distribution of carbon and the demand of the fungal symbiont in leek plants with vesicular–arbuscular mycorrhizas. New Phytologist 12, 7587.
  • 17
    Sylvia, D.M. (1990) Distribution, structure and function of external hyphae of vesicular–arbuscular mycorrhizal fungi. Rhizosphere Dynamics (eds J. E. Box & L. C. Hammond), pp. 144–167. Westview Press, Boulder, CO.
  • 18
    Waters, J.R. & Borowicz, V.A. (1995) Effect of clipping, benomyl and genet on 14C transfer between mycorrhizal plants. Oikos 12, 246252.
  • 19
    Watkins, N.K., Fitter, A.H., Graves, J.D., Robinson, D. (1996) Carbon transfer between C3 and C4 plants linked by a common mycorrhizal network, quantified using stable carbon isotopes. Soil Biology and Biochemistry 12, 471477.